RU2382979C1 - Altitude-blast pyro - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: invention relates to pyrotechnics. Proposed altitude-blast pyro comprises casing made up of semi-spheres jointed together, fabric enclosure arranged inside said casing filled with initiation charge, functional pyro elements arranged between said fabric enclosure and jointed semi-spheres, propellant charge arranged in capsule attached to lower semi-sphere and furnished with remote electric fuse, delay timer arranged inside initiation charge communicated, via semi-sphere bore, with propellant charge, and actuation loopy handle. There is load-bearing enclosure on the casing of, in fact, equal thickness made up of shell and variable-cross section coat applied on said shell. Aforesaid shell and coat represent multi-layer built-up adhesive tape, its width making 0.097 to 0.120 of casing diametre.

EFFECT: equal surface strength allowing instantaneous fragmentation of pyro charge casing and uniform scatter of burning elements of proper shape that make preset pattern.

2 cl, 1 dwg, 1 tbl

Description

The invention relates to pyrotechnics, and more particularly to pyrotechnic devices for illumination, entertainment, entertainment and signaling purposes, and can be used for products that function when throwing at a given height.

The level of this technical field is characterized by a pyrotechnic firework product, the functional elements (stars) of which are laid between the inner surface of the spherical body and the central perforated cardboard shell filled with an ignition-bursting charge, described in the invention SU 237042, С06D.

Ignition-explosive charge is a pyrotechnic mixture of the following components (wt.%): 53-63 potassium nitrate, 32-38 magnesium powder and 5-9 cryolite.

The disadvantage of the described product is unsatisfactory performance indicators, namely: distortion of the shape of the volumetric pattern of the formed fireworks from burning stars. This is due to the uneven crushing of the product body due to the low dynamics of pressure increase in it with insufficient gas intake from the slowly burning pyrotechnic composition of the ignition-explosive charge.

Large fragments of the body formed during the hemisphere fracture are a screen that prevents the free expansion of functional elements, during the burning of which local fireworks are formed, forming a common luminous pattern.

When shielding, the star’s scattering is partially inhibited and suppressed, in which the given pattern is distorted, the luminous figure is formed and the spectacular effect is reduced.

More perfect is the pyrotechnic fireworks product of high-altitude action according to patent RU No. 26116, F42В 4/04, 2002, which is selected by the number of matching features as the closest analogue to the proposed one.

The known product contains a spherical body made of three to six pairs of stacked hemispheres from glued layers of cardboard, with stars (functional elements), laid on the inside on a fabric shell filled with an ignition-explosive charge.

Each hemispherical joint is deployed relative to the joints of adjacent layers to create equal strength glued body.

A pyrotechnic moderator connected with a propellant powder charge is placed inside the ignition-bursting charge, which is placed in a sleeve radially adjacent to the spherical body, equipped with an electric igniter of remote start made from a tubular mortar that sets the direction of flight.

A feature of the known product is the performance of a flammable explosive charge in the form of a mixture of dispersed plant material (sunflower husk, floor oats, rice husk, cotton seeds), which has a loose structure with a low gravimetric density and a highly developed surface.

The structural particles of an inert plant filler are coated with a thin layer of gunpowder or a mixture of pyrotechnic composition with nitrocellulose.

The use of nitrocellulose in the form of a solution in a volatile solvent in the manufacture of a flammable-explosive charge, which is placed in a tissue shell instead of a perforated cardboard according to the indicated analogue, makes it possible to increase the manufacturability of a less labor-intensive manufacturing of the product.

A heat-sensitive coating on an inert dispersed carrier determines a high ignition rate and dynamic combustion in the volume of an ignition-explosive charge, which provides a sharp increase in the pressure of generated gaseous products inside the housing. As a result of this, a finely fragmented crushing of the body and throwing of burning functional elements to a distance multiple of the prototype distance and equal in all directions is achieved.

When a well-known product operates at a firing height, an almost spherical surface is formed from local fireworks from autonomously burning functional elements from the pyrotechnic spark-spark composition of stars.

The pyrotechnic spark-star composition of the stars is ignited by the energy of the generated gaseous products of combustion of the ignition-explosive charge before crushing the body with a maximum pressure in its closed volume.

However, a disadvantage of the known technical solution is the technological complexity of manufacturing a multi-element case manually, which limits the industrial production of serial products.

In addition, the possible breakthrough of gaseous products of combustion of an explosive-explosive charge through the joints of the hemispheres of a layered body leads to its uncontrolled crushing into large conglomerates, which shield the expansion of functional elements, which ultimately distorts the specified pattern of fireworks in the atmosphere due to the inevitable local braking of burning stars.

The lack of built-in devices for carrying products and, most importantly, for oriented loading into an extended throwing mortar, creates problems in official handling and when starting products along a given trajectory.

The problem to which the present invention is directed is to improve the design of the product to increase its functional reliability and ease of use.

The required technical result is achieved by the fact that the known pyrotechnic product of high-altitude action, comprising a housing of stacked hemispheres, a fabric shell placed inside the housing, filled with an ignition charge from a coated layer of ignition mixture of bulk material of plant origin, functional pyrotechnic elements located between the fabric shell and the stacked hemispheres with distribution along the perimeter of the joined hemispheres, propelling charge placed in the attached the capsule, which is connected to the lower hemisphere of the housing and equipped with a remote start electric igniter, a temporary retardation device located inside the igniter charge and communicating with the propellant hole made in the hemisphere, according to the invention, comprises a bearing shell of the housing of almost equal thickness, consisting of a width of a band not complementary to each other with a thickness of less than half the diameter of the body of the product and decreasing to the edges of the thickness made by multilayer winding along the junction of hemispheres of self-adhesive overlapping tape with partial overlapping of the rows in width, and an interfaced coating of variable cross section, made over the bandage by multi-layer winding across the joint of hemispheres of a self-adhesive tape with partial overlapping of the rows in width and adjacent to the hemispheres of the body in the polar zones with the formation of through diametrical holes for the device for temporary deceleration and a loop handle, while the width of the self-adhesive tape is 0,097-0,120 case diameter, and the product is equipped with a loop handle located in the hole ytiya coated and fixed on the housing, wherein the through diametral apertures in the coating for the temporary deceleration device and handle loop formed by winding a series of self-adhesive tape obliquely to the longitudinal axis of the article at an angle of 12-15 °.

Distinctive features provided the possibility of efficient automatic manufacturing of the bearing shell of a given shape by winding adhesive tape. The achieved equal strength of the puff body ensures its simultaneous crushing into predetermined small fragments that do not impede the expansion of burning functional elements to form the correct shape and pattern of the fireworks.

Equipping the pyrotechnic product with a supporting shell allows you to throw it at a predetermined response height for the intended purpose, preserving the integrity of the structure, where under the influence of volume detonating filling, the shell is fragmented into small fragments, without interfering with the expansion of the functional pyrotechnic elements.

The implementation of the bearing shell is a composite of the complementary bandage and coating allows you to create a spherical structure of almost equal thickness over the entire surface of the housing. This results in a fundamentally new quality: a significant increase in structural strength due to the fact that the bandage is made by multi-layer winding of self-adhesive tape along the joint of the hemispheres of the body, and the adjacent coating is transverse.

The bandage acts as a connecting element of the hemispheres and therefore has a maximum thickness along their diametrical junction.

The mating coating is formed by multi-layer winding of a self-adhesive tape across the hemispherical joint and serves as a power and geometric lock for the bandage and the composite body as a whole.

The variable thickness of the coating, together with the bandage, forms the bearing shell of the body of equal thickness, structured in composition and function. The layer-by-layer intersections of the rows of tape in the bandage and the coating of the shell form the cellular structure of the semi-finished elements of crushing the housing when loading the detonation of the filling from the inside with a shock wave, that is, the housing is a honeycomb structure that is stable when throwing the product and orientedly crushing when undermining from the inside.

The destruction of the shell occurs in stress concentrators that occur along the lines of intersection of the edges of the tape in rows of mutually perpendicular winding

The shape of the bandage (with the maximum thickness opposite the junction of the hemispheres of the body when its thickness decreases to the edges along the width chosen not less than the radius of the sphere) forms an arched structure that works both in tension and compression along the abutment line under radial loading of the body, providing dynamic balance of the team systems and functional reliability of the design.

The formation directly on the spherical body of the mating bandage and coating by successive winding of a self-adhesive tape creates a power shell of equal thickness, perceiving the pressure of the generated gaseous products of combustion in the form of a distributed load from the inside.

Thus, the total thickness of the bandage and coating, complementing each other, is equal to the thickness of the coating at the poles (along the axis of the product), where the coating is adjacent directly to the housing, thereby ensuring maximum resistance to the efforts of the separation of the hemispheres along the line of their joining.

Partial overlapping of adjacent rows of tape with multilayer mutually perpendicular winding of adjacent bandages and coatings in each layer makes it possible to obtain a stepless predetermined profile of the load-bearing shell of a product of increased strength, which is almost equal in all directions.

Partial overlapping of the rows of tape when winding the bandage and coating is necessary for the continuity of the formed shell and ensuring its bearing strength. In addition, this creates a cellular structure with a relatively variable strength of stress concentrators from internal pressure during operation, which contributes to the fine-fractional crushing of the layered body, which does not have a practical effect on the expansion of burning stars.

A feature of the prefabricated equal-strength construction of the bearing shell of the case is that when the ignition-bursting charge is burned, pressure builds up inside the case to a predetermined level at which the bandage and coating of the bearing shell are crushed.

If the bandage is wound with tape in the direction of the joint of the hemispheres of the body, then the coating is formed by winding the tape in the perpendicular direction, which ensures their power circuit and practical equal strength of the bearing shell.

It has been experimentally established that when choosing the width of the self-adhesive tape for automatically forming the bandage and coating equal to 0.097-0.120 of the case diameter by winding, on practical products with diameters of 75, 100, 125, 150 and 195 mm, the absence of bumps and corrugations is technologically ensured with a maximum interference force, then there is the required quality of the bearing shell.

Equipping the product with a loopback handle mounted through a technological hole in the coating on the housing makes it convenient to carry it and orientated loading into the launch mortar.

The inclination of the tape during winding of the coating relative to the longitudinal axis of the product at an angle of 12-15 ° ensures the automatic formation of through diametrical holes designed to install a temporary deceleration device and fasten the loop handle, respectively. This increases the manufacturability of the design and reduces labor costs for manufacturing products in serial production.

The angle of the tape to the longitudinal axis of the product is optimized to form the required diameter when winding technological holes.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve the novelty of quality that is not inherent in the signs of disunity, that is, the technical problem posed in the invention is achieved not by the sum of the effects, but by a new super-effect of the sum of the attributes.

The invention is illustrated by the drawing, which has a purely illustrative purpose and does not limit the scope of the claims of the formula. The drawing shows the proposed pyrotechnic fireworks product of high-altitude action.

The product according to the invention comprises a housing made of electrical cardboard assembled from two stacked hemispheres 1, 2, which are made of electrical cardboard 1-1.5 mm thick.

Inside the housing there is a fabric shell 3 filled with a flammable explosive charge 4, which is a loose inert material of plant origin, in particular sunflower husk, oat floor, rice husk, cotton seeds, the particles of which are coated with a thin layer of an ignition mixture of pyrotechnic composition with nitrocellulose or gunpowder.

The thickness of the igniter layer is 0.4-0.6 mm, which ensures effective ignition of the charge 4.

The mass ratio of the structural components of the charge 4 - an inert dispersed material and heat-sensitive coating - is 0.2-0.7, which is guaranteed to ensure the stability of the ballistic and technological characteristics of the ignition-explosive charge 4.

In the hemisphere 2 of the product body, a hole 5 is made under the temporary deceleration device 6, which is located inside the charge 4.

Between the fabric shell 3 and the hemispheres 1, 2 of the body are distributed functional elements 7, the so-called stars, which are made of pyrotechnic spark-force composition.

Along the junction of hemispheres 1, 2, a bandage 8 is fixed with a width of at least half the diameter of the product body. Bandage 8 has a variable thickness: the maximum in the center, decreasing towards the edges.

On top of the bandage 8, a mating cover 9 is mounted adjacent in the polar zones to the hemispheres 1 and 2 of the body. The coating 9 is made of variable thickness so that the size of the parts adjacent to the hemispheres 1, 2 is equal to the total thickness of the brace 8 with the associated part of the coating 9. Thus, the bearing shell of the body, composed of the brace 8 and the coating 9, has an almost equal thickness .

In the coating 9, along the longitudinal axis of the product, a through hole 10 is made, coaxial and commensurate with the opening 5 of the hemisphere 2 of the housing, and on the opposite side is the hole 11 in which the loopback handle 12 is installed, pinched by the ends of the coating 9 on the hemisphere 1 of the housing.

In the lower (according to the drawing) part of the product, on the hemisphere 2 of the body, a capsule 13 is attached, carrying a propellant powder charge 14, in which an electric igniter 15 is located, equipped with a cord 16 for connecting mortars to the terminals of the launcher (not shown conditionally).

A feature of the product of the present invention is that the bandage 8 and the coating 9 are made by automatic winding of the adhesive tape 17 sequentially, respectively along and across the junction of the hemispheres 1 and 2 of the body.

On the periphery of the equipment, including the charge 4 placed in the tissue shell 3 with the functional elements 7 distributed on the surface, hemispheres 1, 2 are joined, forming the body of the product.

In this case, the device 6 temporary deceleration, recessed into the charge 4, is oriented relative to the hole 5 in the hemisphere 2, and from the opposite side on the hemisphere 1 the ends of the loopback handle 12 are glued.

The housing thus assembled is mounted on a pivoting device under the winding coils of the self-adhesive tape 17.

First, the tape 17 is wound along the junction of the hemispheres 1, 2, forming a power band 8. Then, the winding of the tape 17 is reoriented in the perpendicular direction when the plane of its rotation is shifted by an angle of 12-15 ° from the longitudinal axis of the product to form diametrically located through holes 10 and 11.

The winding of the tape 17 is carried out with an overlap with an overlap of 3-6 mm, depending on the caliber of the product.

For winding use a paper tape with a width of 9-19 mm with a sticky layer of acrylic (adhesive tape).

It is established that the ratio of the average coating thickness 9 to the average thickness of the bandage 8 does not depend on the caliber of the product and is 0.60-0.65.

With a decrease or increase in the thickness of the body shell of the product formed from the tape by 20%, its crushability noticeably worsens, the pattern and shape of the fireworks are distorted.

Some data characterizing the parameters of the product elements are given in the table.

The proposed product operates as follows.

The product for the loopback handle 12 is installed inside the mortar, to the terminals of which a cord 16 is connected.

When you press the Start button, an electric pulse is supplied to the electric igniter 15, initiating the propellant propellant charge 14.

During dynamic combustion of charge 14, powder gases are generated, which create a jump in excess pressure in the mortar, under the influence of which the product is fired at a given height (120-450 m, depending on caliber).

The thermal energy of the powder gases is ignited by the pyrotechnic composition of the deceleration device 6, the burning time of which is designed to achieve the product's predetermined flight altitude.

The fire torch from the device 6 ignites the composition of the charge 4, which burns at a high speed, while dynamically generating gaseous products, tearing the hemispheres 1, 2 of the body and the supporting shell, consisting of a bandage 8 and a coating 9, into finely divided fragments.

In this case, the distributed functional elements 7, ignited by the hot gaseous products of combustion of the ignition-explosive charge 4, freely scatter in the atmosphere, forming a firework pattern of the correct form.

For example, the radius of the stars 7 for a product with a caliber of 125 mm is 60-70 m.

Tests of an experimental batch of products according to the invention showed high reliability of action and the required firework effect that is stably created, higher than that of standard products, which allows us to recommend their industrial production.

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the invention does not explicitly follow for a pyrotechnic specialist, showed that it is not known, and taking into account the possibility of industrial serial production of high-rise pyrotechnic fireworks, we can conclude that the patentability criteria are met .

Claims (2)

1. A pyrotechnic product of high-altitude action, comprising a housing made up of stacked hemispheres, a fabric shell placed inside the housing filled with an igniter charge from a coated layer of ignition mixture of a loose inert material of plant origin, functional pyrotechnic elements placed between the fabric shell and stacked hemispheres with the distribution along the perimeter of the stacked hemispheres propelling charge placed in a capsule attached to the lower hemisphere of the housing and equipped remote start electric igniter, a temporary deceleration device placed inside the igniter charge and communicating with a propellant hole made in the hemisphere, characterized in that it contains a bearing shell of the body of almost equal thickness, consisting of a bandage complementary to each other with a width of at least half the diameter of the product body and decreasing to the edges of the thickness made by multilayer winding along the joint of the hemispheres of a self-adhesive tape with a partial overlap of the rows along the width otherwise, and a mating coating of variable cross section made over the bandage by multi-layer winding across the joint of the hemispheres of the self-adhesive tape with partial overlapping of the rows in width and adjacent to the hemispheres of the body in the polar zones with the formation of through diameter holes for the temporary deceleration device and loop handle, while the width of the self-adhesive the tape is 0,097-0,120 case diameter, and the product is equipped with a loop handle located in the hole of the coating and fixed to the case with the coating. 2. The product according to claim 1, characterized in that the through diametrical holes in the coating for the temporary deceleration device and the loop handle are formed by winding rows of self-adhesive tape at an angle of 12-15 ° to the longitudinal axis of the product.

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